diff options
Diffstat (limited to 'lib/crypto/doc/src/crypto.xml')
-rw-r--r-- | lib/crypto/doc/src/crypto.xml | 66 |
1 files changed, 39 insertions, 27 deletions
diff --git a/lib/crypto/doc/src/crypto.xml b/lib/crypto/doc/src/crypto.xml index 19db6c9dd4..36f8bc6deb 100644 --- a/lib/crypto/doc/src/crypto.xml +++ b/lib/crypto/doc/src/crypto.xml @@ -865,11 +865,13 @@ Mpint() = <![CDATA[<<ByteLen:32/integer-big, Bytes:ByteLen/binary>>]]> </func> <func> - <name>rsa_sign(Data, Key) -> Signature</name> - <name>rsa_sign(DigestType, Data, Key) -> Signature</name> + <name>rsa_sign(DataOrDigest, Key) -> Signature</name> + <name>rsa_sign(DigestType, DataOrDigest, Key) -> Signature</name> <fsummary>Sign the data using rsa with the given key.</fsummary> <type> + <v>DataOrDigest = Data | {digest,Digest}</v> <v>Data = Mpint</v> + <v>Digest = binary()</v> <v>Key = [E, N, D] | [E, N, D, P1, P2, E1, E2, C]</v> <v>E, N, D = Mpint</v> <d>Where <c>E</c> is the public exponent, <c>N</c> is public modulus and @@ -879,37 +881,40 @@ Mpint() = <![CDATA[<<ByteLen:32/integer-big, Bytes:ByteLen/binary>>]]> the calculation faster. <c>P1,P2</c> are first and second prime factors. <c>E1,E2</c> are first and second exponents. <c>C</c> is the CRT coefficient. Terminology is taken from RFC 3447.</d> - <v>DigestType = md5 | sha</v> + <v>DigestType = md5 | sha | sha256 | sha384 | sha512</v> <d>The default <c>DigestType</c> is sha.</d> <v>Mpint = binary()</v> <v>Signature = binary()</v> </type> <desc> - <p>Calculates a <c>DigestType</c> digest of the <c>Data</c> - and creates a RSA signature with the private key <c>Key</c> - of the digest.</p> + <p>Creates a RSA signature with the private key <c>Key</c> + of a digest. The digest is either calculated as a + <c>DigestType</c> digest of <c>Data</c> or a precalculated + binary <c>Digest</c>.</p> </desc> </func> <func> - <name>rsa_verify(Data, Signature, Key) -> Verified</name> - <name>rsa_verify(DigestType, Data, Signature, Key) -> Verified </name> + <name>rsa_verify(DataOrDigest, Signature, Key) -> Verified</name> + <name>rsa_verify(DigestType, DataOrDigest, Signature, Key) -> Verified </name> <fsummary>Verify the digest and signature using rsa with given public key.</fsummary> <type> <v>Verified = boolean()</v> + <v>DataOrDigest = Data | {digest|Digest}</v> <v>Data, Signature = Mpint</v> + <v>Digest = binary()</v> <v>Key = [E, N]</v> <v>E, N = Mpint</v> <d>Where <c>E</c> is the public exponent and <c>N</c> is public modulus.</d> <v>DigestType = md5 | sha | sha256 | sha384 | sha512</v> - <d> The default <c>DigestType</c> is sha.</d> + <d>The default <c>DigestType</c> is sha.</d> <v>Mpint = binary()</v> </type> <desc> - <p>Calculates a <c>DigestType</c> digest of the <c>Data</c> - and verifies that the digest matches the RSA signature using the + <p>Verifies that a digest matches the RSA signature using the signer's public key <c>Key</c>. - </p> + The digest is either calculated as a <c>DigestType</c> + digest of <c>Data</c> or a precalculated binary <c>Digest</c>.</p> <p>May throw exception <c>notsup</c> in case the chosen <c>DigestType</c> is not supported by the underlying OpenSSL implementation.</p> </desc> @@ -1022,45 +1027,52 @@ Mpint() = <![CDATA[<<ByteLen:32/integer-big, Bytes:ByteLen/binary>>]]> </func> <func> - <name>dss_sign(Data, Key) -> Signature</name> - <name>dss_sign(DigestType, Data, Key) -> Signature</name> + <name>dss_sign(DataOrDigest, Key) -> Signature</name> + <name>dss_sign(DigestType, DataOrDigest, Key) -> Signature</name> <fsummary>Sign the data using dsa with given private key.</fsummary> <type> - <v>DigestType = sha | none (default is sha)</v> - <v>Data = Mpint | ShaDigest</v> + <v>DigestType = sha</v> + <v>DataOrDigest = Mpint | {digest,Digest}</v> <v>Key = [P, Q, G, X]</v> <v>P, Q, G, X = Mpint</v> <d> Where <c>P</c>, <c>Q</c> and <c>G</c> are the dss parameters and <c>X</c> is the private key.</d> - <v>ShaDigest = binary() with length 20 bytes</v> + <v>Digest = binary() with length 20 bytes</v> <v>Signature = binary()</v> </type> <desc> - <p>Creates a DSS signature with the private key <c>Key</c> of a digest. - If <c>DigestType</c> is 'sha', the digest is calculated as SHA1 of <c>Data</c>. - If <c>DigestType</c> is 'none', <c>Data</c> is the precalculated SHA1 digest.</p> + <p>Creates a DSS signature with the private key <c>Key</c> of + a digest. The digest is either calculated as a SHA1 + digest of <c>Data</c> or a precalculated binary <c>Digest</c>.</p> + <p>A deprecated feature is having <c>DigestType = 'none'</c> + in which case <c>DataOrDigest</c> is a precalculated SHA1 + digest.</p> </desc> </func> <func> - <name>dss_verify(Data, Signature, Key) -> Verified</name> - <name>dss_verify(DigestType, Data, Signature, Key) -> Verified</name> + <name>dss_verify(DataOrDigest, Signature, Key) -> Verified</name> + <name>dss_verify(DigestType, DataOrDigest, Signature, Key) -> Verified</name> <fsummary>Verify the data and signature using dsa with given public key.</fsummary> <type> <v>Verified = boolean()</v> - <v>DigestType = sha | none</v> + <v>DigestType = sha</v> + <v>DataOrDigest = Mpint | {digest,Digest}</v> <v>Data = Mpint | ShaDigest</v> <v>Signature = Mpint</v> <v>Key = [P, Q, G, Y]</v> <v>P, Q, G, Y = Mpint</v> <d> Where <c>P</c>, <c>Q</c> and <c>G</c> are the dss parameters and <c>Y</c> is the public key.</d> - <v>ShaDigest = binary() with length 20 bytes</v> + <v>Digest = binary() with length 20 bytes</v> </type> <desc> - <p>Verifies that a digest matches the DSS signature using the public key <c>Key</c>. - If <c>DigestType</c> is 'sha', the digest is calculated as SHA1 of <c>Data</c>. - If <c>DigestType</c> is 'none', <c>Data</c> is the precalculated SHA1 digest.</p> + <p>Verifies that a digest matches the DSS signature using the + public key <c>Key</c>. The digest is either calculated as a SHA1 + digest of <c>Data</c> or is a precalculated binary <c>Digest</c>.</p> + <p>A deprecated feature is having <c>DigestType = 'none'</c> + in which case <c>DataOrDigest</c> is a precalculated SHA1 + digest binary.</p> </desc> </func> |